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![SOLVED: lleRS users a double-sieve mechanism to accurately produce lle-tRNA^11e and prevent the synthesis of Val-tRNA^11e. Which order pairs of amino acids differ in structure by a single carbon and might have SOLVED: lleRS users a double-sieve mechanism to accurately produce lle-tRNA^11e and prevent the synthesis of Val-tRNA^11e. Which order pairs of amino acids differ in structure by a single carbon and might have](https://cdn.numerade.com/previews/0c01aba1-9f29-4856-b85e-43856f08d2b6_large.jpg)
SOLVED: lleRS users a double-sieve mechanism to accurately produce lle-tRNA^11e and prevent the synthesis of Val-tRNA^11e. Which order pairs of amino acids differ in structure by a single carbon and might have
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Editing Domain (“2 nd Sieve”) Catalytic Domain (“1 st Sieve”) Anticodon Binding Domain C-Terminal Coiled-Coil Domain 862 amino acids 25 α-helices 30 β-strands. - ppt download
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The binding mode of orphan glycyl-tRNA synthetase with tRNA supports the synthetase classification and reveals large domain movements | Science Advances
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Structural Basis for Double-Sieve Discrimination of L-Valine from L-Isoleucine and L-Threonine by the Complex of tRNAVal and Valyl-tRNA Synthetase: Cell
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